Left-right symmetry breaking in E6L× E6R occurs only in spacetime -- with possible implications for strong CP

Abstract

Two-sided octonionic E6L× E6R unification carries a nominal second colour SU(3)c' which, gauged, would colour the charged lepton and must be suppressed by hand. We argue no such device is needed: the left-right symmetry acts in spacetime, not internally -- in the gravi-weak reading SU(2)R is the gravitational frame group and the exchange is ordinary parity on the Dirac field; a spacetime operation cannot double the internal colour, so SU(3)c'=SU(3)c, one vector-like colour with a colour-singlet electron. The right sector contributes one colour-blind datum, m (values: the exceptional-Jordan trace split, an input; NR fixes only the colour representation). An anomaly no-go proven here shows every anomaly-free U(1) on visible fermions lies in span\Q,B-L\, which the m pattern does not, in any sign or chirality assignment. The gauged dark-electromagnetic U(1)dem -- the mirror electroweak chain's unbroken remnant -- therefore carries the parity-mirror of electric charge on the dark sector: the visible fermions are dem-neutral (kinetic mixing the sole portal; no visible fifth force), and m enters visible physics only as the spectral label of the Jordan mass operator. The same recognition recovers hypercharge as the consistency relation Y=Q-T3L, Q=N/3, with no right-sector generator. As an application, the spontaneous parity forbids the QCD vacuum angle (θQCD=0, conditional on the gravi-weak identification), while the flavour rotors have real determinant, so M=0 at tree level (exact for the Cabibbo rung, texture-contingent in full), coexisting with a nonzero CKM phase. Loop stability -- where minimal gauged-SU(2)R parity solutions fail -- is plausibly evaded (no gauged WR) but open, pending the Higgs-bridge matrix elements. We tag throughout what is derived, what is input, and what is open.

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